Optimal Group Size in a Highly Social Mammal

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Optimal Group Size in a Highly Social Mammal Optimal group size in a highly social mammal A. Catherine Markhama,b,1, Laurence R. Gesquiereb,c, Susan C. Albertsc,d, and Jeanne Altmannb,d,1 aDepartment of Anthropology, Stony Brook University, Stony Brook, NY 11794; bDepartment of Ecology and Evolutionary Biology, Princeton University, Princeton, NJ 08544; cDepartment of Biology, Duke University, Durham, NC 27708; and dInstitute for Primate Research, National Museums of Kenya, Nairobi, Kenya 00502 Contributed by Jeanne Altmann, September 22, 2015 (sent for review April 5, 2015; reviewed by Colin A. Chapman and Marta B. Manser) Group size is an important trait of social animals, affecting how demonstrated, although one previous study in primates found that individuals allocate time and use space, and influencing both an individuals in the smallest and the largest groups had longer daily individual’s fitness and the collective, cooperative behaviors of the travel than individuals in intermediate-sized groups, suggesting a group as a whole. Here we tested predictions motivated by the travel cost of living in the smallest groups that was similar in ecological constraints model of group size, examining the effects magnitude to the cost of living in the largest groups (18). of group size on ranging patterns and adult female glucocorticoid Taken together, the tension between intragroup competition (stress hormone) concentrations in five social groups of wild ba- (more acute for large groups) versus intergroup competition and boons (Papio cynocephalus) over an 11-y period. Strikingly, we predation risk (particularly acute for small groups) is likely to be a found evidence that intermediate-sized groups have energetically key determinant of group size. Group size, in turn, is often an optimal space-use strategies; both large and small groups experi- important source of variance in individual fitness: individuals in ence ranging disadvantages, in contrast to the commonly reported larger relative to smaller groups may experience longer interbirth positive linear relationship between group size and home range intervals, delayed age at sexual maturity, lower fertility, and an in- area and daily travel distance, which depict a disadvantage only in creased prevalence of infectious disease (9–11). Less is known, large groups. Specifically, we observed a U-shaped relationship however, about the physiological consequences of living in large between group size and home range area, average daily distance versus small groups, such as levels of glucocorticoids (stress hor- traveled, evenness of space use within the home range, and glu- mones) (10, 19, 20). Glucocorticoids are steroid hormones secreted cocorticoid concentrations. We propose that a likely explanation in response to a stressor, which help restore homeostasis by for these U-shaped patterns is that large, socially dominant groups diverting energy that normally supports growth, reproduction, and are constrained by within-group competition, whereas small, so- immune function. Whereas high glucocorticoid concentrations are cially subordinate groups are constrained by between-group com- beneficial under acute conditions, chronically elevated levels are petition and predation pressures. Overall, our results provide detrimental to health and survival (21–23). When large groups ex- testable hypotheses for evaluating group-size constraints in other perience greater feeding competition and increased travel distance, group-living species, in which the costs of intra- and intergroup this will lead to energetic stress and should be reflected in elevated competition vary as a function of group size. glucocorticoid levels in individuals in large groups. However, if these potential costs to larger groups are countered by significant glucocorticoid hormones | group size | Papio cynocephalus | advantages (e.g., if larger groups monopolize higher-quality patches ranging patterns | savanna baboons of food than smaller groups), individuals may achieve an energetic balance (reflected in lower glucocorticoid levels) that is indepen- he emergence and evolution of group living is a central topic in dent of group size or that even favors large groups. Tecology and evolution (1, 2). According to theory, animals form Here we evaluated how ranging patterns and adult female fecal — groups when the benefits of aggregation including decreased pre- glucocorticoid concentrations (fGC) varied with group size within a dation risk, facilitation of cooperative infant care, increased proba- — bility of winning intergroup competition, and information sharing Significance exceed the costs of maintaining close proximity with conspecifics (3–6). Conversely, costs are primarily derived from intragroup com- petition for limited resources, such as food and reproductive op- What are the costs and benefits for animals living in groups of portunities, and increased probability of disease transmission (5). different sizes? Balancing the trade-offs between within-group When group living does evolve, what size groups will form and competition (which favors smaller groups) and between-group what are the consequences for individuals living in groups of dif- competition (which favors larger groups) suggests that inter- ferent sizes? Group size is a key aspect of group living that can mediate-sized groups may be best, yet empirical support for this have a pronounced effect on activity and travel patterns, and hence prediction has largely been lacking. Using long-term data on wild can have important fitness consequences for social animals (7–13). baboons, we provide novel evidence that individuals living in If group living is advantageous, do larger groups experience ad- intermediate-sized groups have energetically optimal space-use vantages relative to smaller groups, or do larger groups experience strategies and lower glucocorticoid (stress hormone) concentra- increasing costs that counter advantages? The ecological con- tions than individuals in either large or small groups. Our results straints model of group size posits that larger groups experience offer new insight into the costs and benefits of group living. more intragroup competition for food resources than smaller Author contributions: A.C.M., L.R.G., and J.A. designed research; A.C.M., L.R.G., S.C.A., groups; intragroup competition then drives larger home ranges and and J.A. performed research; A.C.M. and L.R.G. analyzed data; and A.C.M., L.R.G., S.C.A., longer daily travel distances, imposing greater energetic costs on and J.A. wrote the paper. larger than on smaller groups (reviewed in ref. 13). Several studies Reviewers: C.A.C., McGill University; and M.B.M., University of Zurich. have shown that foraging time increases as group size increases, The authors declare no conflict of interest. – supporting the ecological constraints model (13 15). Data deposition: Data underlying these analyses have been deposited in the Dryad re- However, living in small groups may impose costs as well. pository (dx.doi.org/10.5061/dryad.nh597). Smaller groups are predicted to be more vulnerable to predation, See Commentary on page 14751. and also to competition with conspecific groups because they may 1To whom correspondence may be addressed. Email: [email protected] or be more easily displaced or “pushed” than large groups, limiting [email protected]. access to key resources (3, 16, 17). Empirical evidence for the fit- This article contains supporting information online at www.pnas.org/lookup/suppl/doi:10. ness disadvantages of living in smaller groups has not been directly 1073/pnas.1517794112/-/DCSupplemental. 14882–14887 | PNAS | December 1, 2015 | vol. 112 | no. 48 www.pnas.org/cgi/doi/10.1073/pnas.1517794112 Downloaded by guest on September 30, 2021 single population of wild baboons (Papio cynocephalus), a species term: 16.095 vs. 13.031], monthly home range (57.835 vs. 22.762), characterized by highly cohesive and stable mixed-sex social groups average daily travel (29.988 vs. 21.632), and evenness of space SEE COMMENTARY ranging in size from ∼20 to over 100 individuals (24). Our in- use (45.581 vs. 25.507). Large and small groups had larger annual vestigation provides an important extension of previous research on and monthly home ranges, longer average daily travel, and more optimal group size, which has focused predominantly on fission-fusion even patterns of space use than intermediate-sized groups (Fig. 1 species, in which group size changes frequently in response to im- A–C and Table 1). Among environmental variables, only rainfall mediate conditions (25). Within a baboon population, the home evenness had a significant effect: annual home range areas were ranges of social groups overlap extensively, and foraging resources larger when rainfall was less even (Table 1). [primarily plant foods (26, 27)], are often located within regions of Again unexpectedly, group size was also best represented as a home range overlap (28). However, despite this home range overlap, quadratic predictor variable for fGC concentrations: females in groups rarely come in close proximity with one another, indicating smaller and larger groups had higher fGC concentrations than that baboon groups temporally partition the landscape, using the same females in intermediate-sized groups (QIC with linear vs. qua- resources but at different times (29). When intergroup interactions dratic term: 25.045 vs. 23.656) (Fig. 1D and Table 1). Neither do occur, differences in the number of adult males (a demographic rainfall nor monthly maximum temperature
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